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    <br/>第七章 类人DNA与神经元基于催化算子映射编码方式
    <br/>The Initons Catalytic Reflection Between Humanoid DNA and Nero
    Cell
    <br/>类人 DNA 与 神经元基于催化算子映射编码方式
    <br/>Yaoguang Luo, Rongwu Luo
    <br/>罗瑶光, 罗荣武
    <br/>Keywords
    <br/>VPCS, AOPM, IDUC, Nero, Artificial, Decoder, Medical, Paralling,
    Computing,
    <br/>Humanoid, ETL, Parser, Data Mining
    <br/>关键词
    <br/>VPCS 架构 AOPM 逻辑 IDUC 编码 神经元 人工 解码 医学 并行计算 类人仿生 ETL 数据挖掘
    爬取
    <br/>3. 3 Deta Catalytic computing application, 德塔催化计算应用
    <br/>
    In order to demonstrate the importance of DETAiled logic, I
    began to integrate this logic concept into my YangLiaoJing and all my
    soft works. When I saw 13 million high-accuracy word segmentation per
    second, 6 million mixed phonetic symbols per second, 12 million double
    arrays sorting per second, and other amazing works came out, I began to
    sigh my own cognition. I unreservedly opened up all these ideas and
    works, which hope aroused humanoid thinking resonance.
    <br/>
    为了论证细化逻辑的重要性, 我开始将这种逻辑观念, 融入我的养疗经和我的一切软著作品中,
    当我看到每秒1300 万的高准确度分词, 每秒 600 万的混合象契拼音笔画排序, 每秒 1200
    万的double 数组排序, 等惊人性能的作品问世, 我对自己的认知开始感叹了. 我毫不保留的
    将这些思想和作品全部开源了. 引起人类的思维共鸣. 7 个月前我在对 dataswap 作品的评论
    中描述.
    <br/>
    At present, the significance of differential catalysis has
    included seven categories: frequency valve (von Neumann) differential,
    discrete logic (De Morgan) differential, high-frequency function
    degradation, conditional refinement differential, executive mode
    differential, giant system (Qian Xuesen) module differential, and
    mathematical differential (Newton, Blainez), which is the only way to
    catalyze humanoid DNA evolutionary algorithm. And made a DETAiled
    demonstration and summarized as follows
    <br/>
    微分催化的意义 目前已经包含了 频率阀门(冯诺依曼, 这里属于排队论, 严谨点不属于
    冯诺依曼)微分, 离散逻辑(狄摩根)微分, 高频函数降解, 条件细化微分, 执行模式微分,
    巨系统(钱学森)模块微分, 数学微分(牛顿, 布莱尼兹)7 大类, 是类人 DNA 进化算法
    催化 的唯一途径. 并做了详细的论证归纳如下
    <br/>
    <br/>《微分催化计算作为类人 DNA 进化的唯一途径》 论证实例如下:
    <br/>DETA 快速分词 POS 流水阀门微分算法 实例论证:
    <br/>https://gitee.
    com/DETAChina/DETAParser/blob/master/wordSegment/org/tinos/engine/pos/imp/POSControllerImp.
    java
    <br/>论证主题: 微分催化计算能非常好的观测到量子态函数的执行流水逻辑,
    通过统计可以将高频函数逐步按冯诺依曼态提前,
    低频的逻辑逐步淘汰筛选.
    <br/>论证结果: 论证成功. 减少无关代码遍历次数. 大幅提高算能.
    <br/>论证影响: 类人 DNA 进化算法的进化机制主要途径.
    <br/>Demonstration of differential algorithm of POS water valve with
    Deta fast segmentation;
    <br/>Demonstration topic: Differential catalytic calculation can well
    observe the execution flow logic of quantum state function. Through
    statistics, high-frequency function can be advanced gradually according
    to von Neumann state, and low-frequency logic can be eliminated and
    screened gradually.
    <br/>Demonstration result: The demonstration was successful. Reduce
    the traversal times of irrelevant code. Greatly improve the computing
    power.
    <br/>Demonstrating influence: the main way of evolutionary mechanism
    of humanoid DNA evolutionary algorithm.
    <br/>
    <br/>罗瑶光小高峰计算过滤排序算法第4代实例论证: https://gitee.
    com/DETAChina/DataSwap/blob/dceeb0b06f726d640553964058d85b736354ac89
    /src/org/DETA/tinos/array/LYG4DWithDoubleQuickSort4D. java
    <br/>论证主题: 微分催化计算能非常好的结合离散数学体系从数字逻辑层面进行微分过滤高频函数.
    保证平滑
    <br/>论证结果: 论证成功. 大幅增快计算速度.
    <br/>论证影响: 类人 DNA 进化算法能有效平滑计算高峰.
    <br/>Demonstration of the 4th generation example demonstration of
    filtering sorting algorithm for Luo yaoguang s small peak calculation;
    <br/>Demonstration topic: Differential catalytic calculation can be
    combined differentially with discrete mathematics system to filter
    high-frequency functions where from the digital logic level. Ensure
    smoothness
    <br/>Demonstration result: The demonstration was successful. Greatly
    increase the calculation speed.
    <br/>Demonstration influence: humanoid DNA evolutionary algorithm can
    effectively smooth the peak of computation.
    <br/>
    <br/>罗瑶光欧拉森林商旅环微分TSP算法第2代实例论证:
    <br/>https://gitee.com/DETAChina/Data_Prediction/blob/master/src
    /org/tinos/DETA/tsp/YaoguangLuoEulerRingTSP2D.java
    <br/>论证主题: 微分催化计算能非常好的将传统的复杂逻辑进行认知层的思维模式优化改变,
    一开始便从根本上改变认知过程.
    <br/>论证结果: 论证成功. 微分催化计算在一些社会领域能改变传统认知方式.
    <br/>论证影响: 类人 DNA 进化算法能有效的选择最快的算法模块和认知模块来做特定领域的计算,
    提高算能.
    <br/>
    Demonstration of the second generation of differential TSP
    algorithm for Luoyaoguang Euler forest business travel ring
    Demonstration topic: Differential catalytic computing can optimize the
    thinking mode of traditional complex logic at cognitive level, and
    fundamentally change the cognitive process from the beginning.
    <br/>
    Demonstration result: The demonstration was successful.
    Differential catalytic computing can change the traditional cognitive
    style in some social fields.
    <br/>
    Impact of demonstration: Humanoid DNA evolutionary algorithm can
    effectively select the fastest algorithm module and cognitive module to
    do calculation in specific fields, and improve computing power.
    <br/>
    <br/>罗瑶光象契字符串条件微分排序算法第7代实例论证: https://gitee.
    com/DETAChina/DataSwap/blob/master/src/org/DETA/tinos/string/
    LYG4DWithChineseMixStringSort7D.java
    <br/>论证主题: 微分催化计算能可观的将条件函数统一, 减少逻辑复杂度, 并能持续优化和持续专注.
    <br/>论证结果: 论证成功. 微分催化算法能很好的将整体函数的局部模块进行 vpcs 逻辑拆分,
    形成 DNA 肽链的 Initon 运算嘌呤元.
    <br/>论证影响: 类人DNA进化算法的自主进化机制保障.
    <br/>
    Demonstration of the 7th generation example of Luo Yaoguangs
    conditional differential sorting algorithm for light image strings;
    Argument topic: Differential catalytic computing can unify conditional
    functions considerably, reduce logic complexity, and continuously
    optimize and focus.
    <br/>
    Demonstration result: The demonstration was successful.
    Differential catalysis algorithm can split the local modules of the
    whole function by vpcs logic, and form the purine element of Initon
    operation of DNA peptide chain.
    <br/>
    Demonstration influence: the guarantee of autonomous evolution
    mechanism of humanoid DNA evolutionary algorithm.
    <br/>
    <br/>DETA Socket 流可编程数据库引擎的PLSQL语言微分编译机实例论证 : https://gitee.
    com/DETAChina/DETA_PLSQL_DB/blob/master/java/org/lyg/db/plsql/imp/ExecPLSQLImp.
    java
    <br/>论证主题: 微分催化计算 多条件 执行的 可用性.
    <br/>论证结果: 论证成功. 微分催化算法能提供 函数系统运算时 可逆向可观测运维保障.
    <br/>论证影响: 类人 DNA 进化算法的 条件微分, 逻辑微分, 高频阀门前置等功能的 综合集成应用实践.
    <br/>
    Demonstration of PLSQL differential compiler for Deta Socket
    stream programmable database engine; Demonstration topic: Availability
    of multi-condition execution of differential catalytic calculation.
    <br/>
    Demonstration result: The demonstration was successful.
    Differential catalysis algorithm can provide reverse observable
    operation and maintenance guarantee for functional system operation.
    <br/>
    Demonstration influence: the comprehensive application practice
    of conditional differentiation, logical differentiation, high-frequency
    valve preposition and other functions of humanoid DNA evolutionary
    algorithm.
    <br/>
    These arguments were a year ago. At present, many works have
    been in a good follow-up state because they are developed as subsystems
    of the project of YangLiaoJing. Over the years, I have been thinking,
    what is the final expression of Deta acquisitive logic? I have never
    stopped exploring, and I have always been absolutely focused.
    <br/>
    上述这些论证是一年前的, 目前很多作品因为作为养疗经项目的子系统研发, 一直保持良好
    的跟进状态中. 这些岁月, 我一直在思考, 细化逻辑的最终表达方式是什么? 我一直没有停止探索
    , 持续的绝对专注.
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